Vision‐assisted deep stall landing for a fixed‐wing UAV

This paper reports a guidance and control method for vision‐assisted deep stall landing for a fixed‐wing unmanned aerial vehicle (UAV). With a deep stall maneuver, a fixed‐wing UAV can land on a confined area with a deep flight path angle. This paper combines vision‐assisted guidance for approach an...

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Bibliographic Details
Published in:Journal of field robotics 2022-10, Vol.39 (7), p.1138-1152
Main Authors: Kim, Doyoung, Park, Sanghyuk
Format: Article
Language:English
Subjects:
Airspeed
Algorithms
Confined spaces
Control methods
deep stall landing
fixed‐wing UAV
Flight tests
Landing
Maneuvers
Mouse devices
Stalling
Tracking
Unmanned aerial vehicles
vision‐assisted guidance
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Summary:This paper reports a guidance and control method for vision‐assisted deep stall landing for a fixed‐wing unmanned aerial vehicle (UAV). With a deep stall maneuver, a fixed‐wing UAV can land on a confined area with a deep flight path angle. This paper combines vision‐assisted guidance for approach and deep stall maneuvers for intuitive fixed‐wing UAV operation. A target landing area is chosen and tracked by a human operator with a computer mouse on the aerial image. Then, a line‐of‐sight vector is created to generate a guidance command. The proposed method is composed of two phases: a vision‐assisted approach (Phase I) and vision‐assisted deep stall landing (Phase II). In Phase I, the UAV is guided toward a mouse‐tracked landing area while maintaining the flight speed and altitude. In Phase II, the deep stall is initiated by a deep stall start algorithm, and the UAV is guided to the mouse‐tracked target landing area. The feasibility of the suggested method is verified by a series of flight tests, where the testbed UAV successfully landed on a 10 m × 10 m target.
ISSN:1556-4959
1556-4967
DOI:10.1002/rob.22100